Disinfecting product and process

ABSTRACT

A method and composition for eradicating bacteria from animal carcasses. The composition comprises a solution coating aliphatic medium chain fatty acids, a chelating agent, enough hydrochloric acid to maintain the solution at an acid pH and enough water to dilute the solution to an appropriate concentration of fatty acids. Animal carcasses to be treated are baptized in the solution for ten to thirty minutes, removed and rinsed. Animal carcasses may also be treated by spraying the solution on the carcasses to be treated. When the solution is to be sprayed on a carcass, a thickener such as a polysaccharide is added to the solution such that the spray solution sticks or holds onto the treated carcass.

BACKGROUND OF THE INVENTION

The present invention relates generally to compositions and methods for disinfecting the surface of animal carcasses and in particular to a composition and method including certain fatty acids to kill enteric pathogens and spoilage organisms located on the surface of animal carcasses.

Bacterial contamination of animal carcasses continues to be a major problem in the meat processing industry. Enteric pathogens and spoilage organisms such as Salmonella, Campylobacter, Listeria, Pseudomonas and Enterobacteracae seem to be omnipresent particularly Salmonella and Campylobacter in the poultry environment. These bacteria appear to adapt to changes in the environment and have survived numerous improvements in sanitation, antibacterial drugs and other chemical treatments.

Authorities differ in opinion as to how and when carcasses become contaminated with the Salmonella bacteria. Some authorities argue that the Salmonella bacteria is on the skin of most of the chickens entering processing facilities. They further argue that little cross contamination of the carcasses occurs during processing due to existing sanitizing practices. However, existing sanitizing practices do not effectively reduce or eliminate the Salmonella bacteria already on the chickens, especially bacteria that are in pores or other protected areas on the skin. These protected bacteria are spread about the chicken carcasses during processing, so most of the carcasses leaving the processing facility are still contaminated with these pathogens.

Others argue that the Salmonella bacteria is attached to relatively few of the chickens entering processing facilities and most of the carcasses are cross contaminated with the Salmonella bacteria during processing. For example, Salmonella may be transferred from the excrement of one carcass to the feathers of another while in a poultry transport container.

In order to reveal the numerous possibilities for Salmonella contamination in the processing of poultry, the various steps of the process are briefly set forth. Usually, the process begins with the slaughtering of a chicken and then immersion of the carcass into a scald tank. The scald tank temperature is from about 50 to 60 degrees Centigrade. The carcass is then plucked and eviscerated.

The carcass is then placed into a chiller tank. The United States Department of Agriculture (USDA) Safety and Quality Service regulations require that the chicken carcasses be cooled to below 40 degrees Fahrenheit within four hours after slaughter, that two quarts of water must flow from a chiller tank for each chicken carcass cooled. The carcasses must not gain more than eight percent water weight during the entire procedure. Other requirements exist for different types of poultry such as turkeys, and are typically dependent upon the size of the animal. Chillers used in the cooling process normally use cold water or a water and ice slush to remove animal heat from carcasses. Cooling water in the chill tank is maintained at approximately 34 degrees Fahrenheit (F). The carcasses are typically tumbled through the chiller and in the process blood, lipid, dirt, bacteria and other particulate matter wash off the carcass and become suspended in the chiller water.

It has been suggested that various organic acids, such as acetic and lactic be added to the scald tank in an attempt to disinfect the carcasses. Chlorine has been added to both the scald tank and the chiller tank for this purpose. Although these tactics may be successful in reducing or eliminating cross contamination, none of these treatments have been completely successful in eradicating Salmonella on the chicken. Many of the acid treatments are successful in high concentration to kill Salmonella but such high concentrations adversely affect the organoleptic appearance of the carcass or render the skin easily bruised and damaged during the remainder of the processing procedure.

It has previously been shown in certain industrial and commercial applications that certain fatty acids have an inhibitory or bacteriocidal effect on certain bacterial species. In particular, mixtures of fatty acids have been utilized for sanitizing processing facilities, such as pipelines; however, the literature does not disclose direct use on animals or animal carcasses. Furthermore, not all fatty acids or compositions containing various mixtures thereof would be acceptable for use on animal carcasses. Certain short chain fatty acids having from about 4 to 7 carbon atoms have a particularly rancid, obnoxious odor, making them unacceptable if used in high concentrations. The low water solubility and surface tension of fatty acids also poses a difficulty in preparing sanitizing solutions having fatty acids dissolved therein.

SUMMARY OF THE INVENTION

The present invention comprises novel compositions and methods for controlling enteric pathogens and spoilage organisms such as Salmonella, Campylobacter, Listeria, Pseudomonas and Enterobacteracae on the surface of meat products, particularly poultry. In general, the compositions comprise aqueous solutions having an effective concentration of a fatty acid or mixture of fatty acids having about eight to twelve carbon atoms.

In one embodiment of the present invention, poultry carcasses are immersed in a diluted fatty acid sanitizing solution. A sanitizing solution concentrate further includes a solubilizing acid, such as acetic acid to maintain the fatty acids in solution. The sanitizing solution also includes a sufficient amount of buffering acid such as hydrochloric acid to maintain the solution at an acidic pH, preferably at a pH from about 2.0 to 4.0. The sanitizing solution also preferably includes an effective amount of citric acid to increase the antibacterial activity of the fatty acids with respect to Gram-negative bacteria such as Salmonella, Pseudomonas, Listeria, Campylobacter and Enterobacteracae.

During processing of the chicken carcasses, the carcasses are immersed into a tank containing a quantity of the sanitizing solution. The sanitizing solution i preferably agitated to increase the efficacy of the solution and the speed in which the solution kills the bacteria attached to the poultry carcass. Agitation may be through aeration by bubbling air through the solution or by mechanical means, such as strainers, paddles, brushes or pump driven liquid jets. The sanitizing solution may also be heated to increase the efficacy of the solution in killing bacteria. It is preferable that each carcass be immersed in the sanitizing solution after the carcass is eviscerated and before the carcass is placed in a chiller tank.

In an alternative embodiment of the present invention, the carcasses are sprayed with a fatty acid spray solution. The spray solution preferably includes a sufficient amount of buffering acid such as hydrochloric acid to maintain the solution at an acidic pH, preferably at a pH from about 2.0 to 4.0. The spray solution also preferably includes an effective amount of citric acid to increase the antibacterial activity of the fatty acids with respect to Gram-negative bacteria such as Salmonella, Campylobacter, Listeria, Enterobacteracae and Pseudomonas. An emulsion is made, by mechanical agitation, of the fatty acids in the solution to be sprayed. The spray solution also preferably includes an effective amount of a polysaccharide such as xanthan gum, alginic acid or the thickener sold under the trademark Carbopol to stabilize the fatty acid emulsion and to act as a thickening agent. The polysaccharide thickens the spray solution and generally prevents the spray solution from simply running off the chicken carcass upon application.

During application of the spray solution on carcasses, the surface of the carcasses are preferably agitated. Agitation may be by physical scrubbing of the carcasses, through the action of the spray solution under pressure or by other means. The agitation increases the efficacy of the spray solution in killing bacteria, perhaps due to better exposure of the solution into crevasses containing bacteria. The spray solution may also be heated to increase its efficacy. If the spray solution is to be heated, spraying should occur after plucking and prior to immersion in the chiller. After a sufficient amount of time to kill the bacteria on the carcasses, the spray solution may be rinsed off the chicken carcasses.

OBJECTS AND ADVANTAGES OF THE INVENTION

Therefore, the objects of the present invention are: to provide improved compositions and methods for treating poultry and other animal carcasses to eradicate Salmonella and other bacteria from the carcass surface; to provide such a composition and method for use on carcasses including poultry, pork, beef, turkey, lamb, fish and other seafood; to provide such compositions that may be utilized to dip or spray the carcass to be disinfected; to provide such compositions and methods that do not adversely affect organoleptic qualities such as the taste, texture and appearance of food products produced from the treated carcass; to provide such compositions and methods which will readily meet Federal regulatory requirements for food processing; to provide such compositions and methods that quickly and effectively eradicate Salmonella, Campylobacter, Listeria, Enterobacteracae and Pseudomonas and other bacteria from processed carcasses; to provide such compositions and methods that are relatively easy and inexpensive to prepare and to use and are particularly well adapted for their intended usages thereof.

Other objects and advantages of this invention will become apparent from the following description wherein is set forth, by way of illustration and example, certain embodiments of this invention.

DETAILED DESCRIPTION OF THE INVENTION

As required, detailed embodiments of the present invention are disclosed herein; however, it is to be understood that the disclosed embodiments are merely exemplary of the invention, which may be embodied in various forms. Therefore, specific composition and functional details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present invention in virtually any appropriately detailed form.

The present invention comprises novel compositions and methods for controlling Salmonella, Campylobacter, Listeria, Enterobacteracae and Pseudomonas bacteria on the surface of meat carcasses, particularly poultry. In general, the compositions comprise aqueous bacteriocidal solutions having an effective concentration of a fatty acid or mixture of fatty acids that are edible by humans in the concentrations found on the carcasses subsequent to treatment. The preferred fatty acids are those having from six to twelve carbon atoms and are hereinafter generally referred to as medium chain fatty acids. The fatty acids may also be classified as monobasic acids.

A preferred embodiment of the present invention is used as a bacterial sanitizing solution wherein poultry carcasses are immersed in an aerated tumble tank containing the bacteriocidal sanitizing solution. The sanitizing solution generally comprises water, an effective amount of a medium chain fatty acid or mixtures thereof, a sufficient amount of a buffering acid, such as hydrochloric acid, to maintain the pH of the solution between 2.0 and 4.0, and an effective amount of a chelating agent such as citric acid to increase the bacteriocidal action of the medium chain fatty acids.

The preferred medium chain fatty acids comprise caprylic acid having eight carbon atoms per molecule and capric acid having ten carbon atoms per molecule. Caprylic acid and capric acid are preferably used in a ratio of sixty percent by weight caprylic acid to forty percent by weight capric acid for the total medium chain fatty acid content.

Although the medium chain fatty acids have low solubilities in water, the concentration of medium chain fatty acids used in the sanitizing solution is small enough that the medium chain fatty acids will be dissolved in the water such that a surfactant is not required. However, it I would be preferable to sell and distribute the sanitizing solution in a concentrated form wherein a user would dilute the concentrated sanitizing solution in water to prepare the final, usable sanitizing solution. In a concentrated form, the concentration of the medium chain fatty acids with respect to the amount of water present would be such that the medium chain fatty acids would not remain in solution. Therefore an effective amount of a solubilizing short chain carboxylic acid such as acetic acid may be added to the concentrated sanitizing solution to maintain the medium chain fatty acids in solution.

It is hypothesized that the lethal effect of the sanitizing solution on Salmonella and other enteric pathogens and spoilage organisms is a function of both the hydrogen ion concentration of the low pH solution and of the antimicrobial effect of the fatty acids in the solution. Salmonella is classified as a Gram-negative bacteria. Although fatty acids by themselves are effective in eradicating Gram-positive bacteria, they are not effective by themselves in eradicating Gram-negative bacteria a neutral pH. However, the efficacy of the antimicrobial effect of fatty acids against Gram-negative bacteria such as Salmonella is greatly enhanced by lowering the pH and using the fatty acid with a chelating agent such as citric acid. Other effective chelating agents include polyphosphoric acid and ethylenediaminetetraacetic acid (EDTA).

Propionic acid which exhibits a bacteriocidal effect is highly soluble in water. Therefore, an effective amount of propionic acid may be added to the sanitizing solution to eradicate enteric pathogens and spoilage organisms in the aqueous phase wherein the aqueous phase comprises an aqueous layer typically found on poultry carcasses during processing. The aqueous phase may also comprise the sanitizing solution itself such that propionic acid prevents cross-transfer of bacteria from carcass to carcass while the carcasses are immersed in the sanitizing solution.

Carcasses to be treated are immersed, dipped or submerged in a tank containing the sanitizing solution. Poultry carcasses are preferably immersed in the sanitizing solution after scalding, plucking and evisceration and prior to chilling in a chill tank.

In using the sanitizing solution, the following operating parameters or design considerations can be used to meet process objectives and industry regulations; concentration of the dipping solution, temperature of the sanitizing solution and retention time of carcasses in the sanitizing solution. The primary objective in using the sanitizing solution is to eradicate bacteria from carcasses during processing. This primary objective must be balanced against the objectives of minimizing costs and minimizing damage to the carcass. The process must also meet Federal regulations which provide that carcasses gain no more than eight percent water weight during processing and regulation restricting the heating of carcasses during processing. Increasing the concentration and temperature of the sanitizing solution and increasing the length of time th carcasses are contacted with the sanitizing solution increases the effectiveness of the sanitizing solution in eradicating bacteria. However, increasing each of these parameters also increases costs, carcass damage and percent water gain thus requiring optimization of these parameters.

The concentration of medium chain fatty acids in the sanitizing solution is preferably 50 to 1500 parts per million (ppm). The concentration of citric acid in the sanitizing solution is preferably 100 to 3000 ppm and the concentrations of acetic acid and propionic acid in the sanitizing solution are preferably in the range of 100 to 20,000 ppm and 100 to 1000 ppm respectively. The temperature of the sanitizing solution is preferably elevated over 50 degrees F., and at least over 75 degrees F. Fahrenheit. However, the temperature of the sanitizing solution should not exceed the temperature of the poultry carcasses immediately after scalding, plucking and evisceration which generally ranges from 98° to 100° F. In using the sanitizing solution to treat pork carcasses, it is foreseeable that the sanitizing solution could be heated up to 150 degrees F. Poultry carcasses are preferably immersed in the sanitizing solution for at least five minutes and generally no longer than 30 minutes.

The sanitizing solution is preferably aerated or agitated during use in the tank. The sanitizing solution may be agitated through the use of ultrasound, paddles, brushes or other physical means. Aeration may be by bubbling or by other methods well known in the art.

Hypochlorous acid may be added to the chill tank and sanitizing tank to provide a secondary bacteriocide. The efficacy of hypochlorous acid as a bacteriocide increases with decreasing pH. It is theorized that the low pH of any sanitizing solution remaining on the chicken carcasses when immersed in the chill tank would increase the efficacy of the hypochlorous acid as a bacteriocide.

It is foreseeable that alpha hydroxy substituted fatty acids such as alpha hydroxy caprylic acid may be used instead of or in combination with aliphatic medium chain fatty acids. It is also foreseeable that the sanitizing solution may include a bacteriocidal effective amount of one or more dibasic acids such as oxalic acid, succinic acid and malic acid.

An alternative embodiment of the present invention is used as a spray solution wherein meat, such as poultry carcasses, are sprayed with the spray solution. The spray solution generally comprises water, an effective amount of a fatty acid or mixtures thereof, a sufficient amount of a buffering acid, such as hydrochloric acid, to maintain the pH of the solution between 2.0 and 4.0, an effective amount of a chelating agent such as citric acid to increase the bacteriocidal action of the fatty acids and a sufficient amount of a thickener to allow the spray solution to stick to or hold on to the carcass on which it is applied.

As with the sanitizing solution used with immersion, the preferred medium chain fatty acids in the spray solution are caprylic acid and capric acid in a ratio of sixty to forty parts by weight. The preferred chelating agent is citric acid but may include polyphosphoric acid and ethylenediaminetetraacetic acid (EDTA). Polysaccharides may be used as a thickener or binding agent and the preferred thickener is xanthan gum. Other thickeners that may be used include alginic acid and the thickener sold under the trademark Carbopol. The components of the spray solution are combined to form an emulsion and then sprayed on carcasses. The spray solution is allowed to remain on the carcass a predetermined length of time and then rinsed off with water.

The following examples are provided for the purpose of illustrating the present invention and are not intended to be limiting upon the scope of the invention.

EXAMPLE #1

Tests were conducted to determine the bacteriocidal activity of five different fatty acid solutions against in vitro Salmonella typhimurium. The first or C3 solution consisted of 40 grams acetic acid, 20 grams propionic acid, 10 grams citric acid, 5 grams hydrochloric acid and 25 grams water. The second or C6 solution consisted of 40 grams acetic acid, 20 grams caproic acid, 10 grams citric acid, 5 grams hydrochloric acid and 25 grams water. The third or C3-C8 solution consisted of 40 grams acetic acid, 20 grams propionic acid, 10 grams caprylic acid (eight carbon atoms), 10 grams citric acid, 5 grams hydrochloric acid and 25 grams water. The fourth or C3-C8-C10 solution consisted of 35 grams acetic acid, 5 grams propionic acid, 6 grams caprylic acid, 4 grams capric acid (ten carbon atoms), 10 grams citric acid, 5 grams hydrochloric acid, 5 grams DDBSA(dodecylbenzenesulfonic acid) and 30 grams water. The fifth or C8-C10 solution consisted of 40 grams acetic acid, 6 grams caprylic acid, 4 grams capric acid, 10 grams citric acid, 5 grams hydrochloric acid, 5 grams DDBSA and 30 grams water.

The bacteriocidal activity of these solutions was tested using the Germicidal and Detergent Sanitizer Test procedure presented in the Official Methods of Analysis of the AOAC, Fourteenth Edition, Chapter 4, Disinfectants paragraphs 4.020-4.029, which was modified by plating, one replicate sample after a 30 second exposure rather than duplicate samples after 30 and 60 seconds. The inoculum employed was Salmonella typhimurium ATCC No. 6539. Th sanitizing solutions were tested at dilutions of 1:2000. All dilutions were prepared in AOAC Synthetic Hard Water, 400 ppm as calcium carbonate. The results are summarized in Table #1.

                  TABLE #1                                                         ______________________________________                                         Solution  Percent Kill After 30 Second Exposure                                ______________________________________                                         C3        >99.999                                                              C6        >99.999                                                              C3-C8     >99.999                                                              C3-C8-C10 >99.999                                                              C8-C10    >99.999                                                              ______________________________________                                    

EXAMPLE #2

Ten whole chicken carcasses were inoculated with Salmonella typhimurium (Nalidixid acid resistant strain) and Escherichia coli (E. coli) cultures. The carcasses were inoculated by first preparing stock solutions of approximately 30 milliliters (ml) each of Salmonella typhimurium and E. coli in saline at a Macfarland #3 micoorganism level (30 million organisms per cubic centimeter). 10 ml each of the Salmonella typhimurium and E. coli stock solutions were then added to 2.5 gallons of saline to form a first inoculating solution. A second inoculating solution was formed in the same manner as the first inoculating solution. Five whole eviscerated chicken carcasses comprising the treatment group were allowed to soak in the first inoculating solution for 30 minutes. Five whole chicken carcasses comprising a control group were allowed to soak in the second inoculating solution for 30 minutes. The five carcasses comprising the treatment group were retrieved, drained and transferred to a barrel (Barrel #1) containing a bacteriocidal solution at room temperature. The five carcasses comprising the control group were similarly retrieved, drained and transferred to a barrel containing a control solution identified below and at room temperature.

The bacteriocidal solution was prepared from a concentrate solution comprising sixty percent acetic acid, five percent hydrochloric acid, five percent propionic acid, ten percent citric acid, ten percent water and ten percent fatty acids by weight. Sixty percent of the fatty acids (six percent of the concentrate solution) were capric acid (eight carbon atoms) and forty percent of the fatty acids (four percent of the concentrate solution) were capric acid (ten carbon atoms). 0.444 ml of the concentrate solution were added to twenty gallons of de-ionized water to prepare the bacteriocidal solution. The concentration of fatty acids in the bacteriocidal solution was approximately 586 parts per million (ppm). The control solution was 20 gallons of de-ionized water.

The inoculated chicken carcasses in the bacteriocidal solution and the control solution were then agitated for thirty minutes at room temperature. The carcasses were then removed from the bacteriocidal solution and the control solution and drained. The carcasses were evaluated for bacterial contamination by individually shaking each carcass for one minute in a bag with a rinse solution comprising 100 ml of sterile water. The rinse solution was then poured back into sterile vials and diluted from 10(-1) to 10(-8) using 9.0 ml peptone blanks and plate on TPC (Total Plate Count) Petrifilm. The TPC petrifilm was read and recorded after 48 hours. Appropriate volumes of 10 times normal concentration selenite cystine broth (10×SCB) were then added and allowed to incubate overnight. After 24 hours of incubation of SCB, each vile was streaked on XLD (xylosinedicarboxylate) with 100 ppm Nalidixic acid. After 24 hours indications of whether Salmonella was present(+) or absent(-) was read directly from the Nalidixic acid XLD plates. The results are shown in Table 2.

                  TABLE #2                                                         ______________________________________                                                     TPC (CFU/ML)*                                                                             Salmonella                                              ______________________________________                                         Control Carcasses                                                              Control #1    6,300        (+)                                                 Control #2    11,000       (+)                                                 Control #3    10,000       (+)                                                 Control #4    6,000        (+)                                                 Control #5    5,900        (+)                                                 Treated Carcasses                                                              Treated #1    <10          (-)                                                 Treated #2    <10          (-)                                                 Treated #3    <10          (-)                                                 Treated #4    <10          (-)                                                 Treated #5    <10          (-)                                                 ______________________________________                                          *CFR = Colony Forming Units, ML  milliliters                             

EXAMPLE #3

The procedure disclosed in Example #2 above was repeated with 25 more chicken carcasses with changes in procedure as noted below. After inoculation, five of the carcasses were placed in a control solution similar to that in Example #2 but at 10° Centigrade (C), five carcasses were placed in a Barrel #2 containing the bacteriocidal solution as disclosed in Example #2 diluted to 50 ppm fatty acids, five carcasses were placed in a Barrel #3 containing the bacteriocidal solution as disclosed in Example #2 diluted to 100 ppm fatty acids, five carcasses were placed in a Barrel #4 containing the bacteriocidal solution as disclosed in Example #2 diluted to 250 ppm fatty acids, and five carcasses were placed in a Barrel #5 containing the bacteriocidal solution as disclosed in Example #2. The temperature of bacteriocidal solutions was maintained at 10° C. The results are shown in Table #3.

                  TABLE #3                                                         ______________________________________                                         Treatment of Innoculated Carcasses                                             in Sanitizing Solutions at 10° C.                                                     TPC (CFU/ML)                                                                               Salmonella                                           ______________________________________                                         Control Carcasses                                                              Control #1      5,900         (+)                                              Control #2      8,900         (+)                                              Control #3      9,500         (+)                                              Control #4      10,600        (+)                                              Control #5      11,200        (+)                                              Barrel #2 Treated Carcasses                                                    (50 PPM)                                                                       Treated #1      16,200        (+)                                              Treated #2      8,100         (+)                                              Treated #3      6,200         (+)                                              Treated #4      7,200         (+)                                              Treated #5      5,400         (+)                                              Barrel #3 Treated Carcasses                                                    (100 PPM)                                                                      Treated #1      12,200        (+)                                              Treated #2      6,200         (+)                                              Treated #3      9,300         (+)                                              Treated #4      7,300         (+)                                              Treated #5      5,400         (+)                                              Barrel #4 Treated Carcasses                                                    (250 PPM)                                                                      Treated #1      2,800         (+)                                              Treated #2      4,400         (+)                                              Treated #3      1,200         (+)                                              Treated #4      4,400         (+)                                              Treated #5      3,300         (+)                                              Barrel #5 Treated Carcasses                                                    (500 PPM)                                                                      Treated #1      3,700         (+)                                              Treated #2         20         (+)                                              Treated #3        370         (+)                                              Treated #4       <10          (+)                                              Treated #5       <10          (+)                                              ______________________________________                                    

EXAMPLE #4

A sanitizing solution was prepared by diluting a sanitizing solution concentrate comprising 50 grams acetic acid, 10 grams caprylic acid (eight carbon atoms), 10 grams citric acid, 5 grams hydrochloric acid and 25 grams water with enough water to reduce the concentration of caprylic acid to 490 ppm. Thirty five chicken drumettes were soaked in a solution containing a mixture of Salmonella enterididis and Salmonella typhimurium at a concentration equal to 50,000 bacteria per milliliter for 30 minutes at room temperature. Fifteen of these drumettes or inoculated controls were placed in a lactose broth without treatment with the sanitizing solution. The remaining twenty drumettes or treatment drumettes were immersed in the sanitizing solution at room temperature for 30 minutes during which time the sanitizing solution was agitated. These twenty drumettes were then placed in a lactose broth. Five drumettes or untreated controls were placed in a lactose broth without inoculation in the Salmonella mixture or treatment with the sanitizing solution. The drumettes were incubated in the lactose broth for 24 hours. After the 24 hour incubation, one ml was take from the broth in which each drumette soaked and place in 10 mls of tetrathionate broth and in 10 mls selenite cystine broth. The tetrathionate and selenite cystine broths were then incubated for 16 hours. One ml of each sample was then transferred to a 10 ml tube of GN broth and incubated for an additional 6 hours. The samples were then analyzed using the Gene Trak system. All the untreated controls tested positive for Salmonella. Thirteen out of the fifteen inoculated controls tested positive for Salmonella. Nineteen out of the twenty treated drumettes (95%) tested negative for Salmonella.

EXAMPLE #5

The procedure as disclosed in Example #2 was repeated for an additional ten whole eviscerated carcasses except that the bacteriocidal solution was diluted to 650 ppm fatty acids. The carcasses were immersed for 30 minutes at room temperature. The results are shown in Table #5.

                  TABLE #5                                                         ______________________________________                                                      CONTROL  BACTERIOCIDAL                                                         SOLUTION SOLUTION                                                 ______________________________________                                         TOTAL PLATE COUNT                                                                             44,000-62,000                                                                             LESS THAN 10                                         COLIFORMS      4,400-7,800                                                                               LESS THAN 10                                         ESCHERICHIA COLI                                                                              5,100-7,800                                                                               LESS THAN 10                                         SALMONELLA     POSITIVE   ALL NEGATIVE                                         ______________________________________                                    

EXAMPLE #6

Five sets of five uninoculated chicken wings were treated with either a control solution or one of four concentrations of a bacteriocidal spray solution. The control solution comprises water. A first bacteriocidal spray solution comprises 0.5 percent fatty acids, 10 percent citric acid, enough hydrochloric acid to lower the Ph of the solution to 2.5, 0.5 percent xanthan gum and the rest water. The concentration of fatty acids was increased to 1.0 percent in a second bacteriocidal spray solution, 2.0 percent in a third bacteriocidal spray solution, and 4.0 percent in a fourth bacteriocidal spray solution. The fatty acids comprise 60 percent Caprylic acid and 40 percent Capric acid. Concentrations are weight percents.

The bacteriocidal spray solutions were agitated by stirring to form an emulsion of the fatty acids in water. Each of the bacteriocidal spray solutions and the control solution were then sprayed on five separate chicken wings. The bacteriocidal spray solutions and the control solution were left on the carcasses for ten minutes and then the carcasses were rinsed for one hour in cold water to simulate a chill tank. The wings were then cultured. The results are shown in Table 6.

                  TABLE #6                                                         ______________________________________                                                             Average Total Plate                                        Solution (Fatty Acid Concentration)                                                                Count After Treatment                                      ______________________________________                                         Control (Water)     382 CFU/cm.sup.2                                           First Bacteriocidal Spray Solution                                                                 182 CFU/cm.sup.2                                           (0.5%)                                                                         Second Bacteriocidal Spray Solution                                                                146 CFU/cm.sup.2                                           (1.0%)                                                                         Third Bacteriocidal Spray Solution                                                                 234 CFU/cm.sup.2                                           (2.0%)                                                                         Fourth Bacteriocidal Spray Solution                                                                134 CFU/cm.sup.2                                           (4.0%)                                                                         ______________________________________                                    

EXAMPLE #7

A culture of Salmonella typhimurium was grown to McFarland #1 density (10 million organisms per cubic centimeter) in one liter of lactose broth in order to artificially contaminate chicken parts. One liter of a 500 parts per million (ppm) fatty acid solution was prepared by diluting with water a concentrated fatty acid solution comprising 10 percent fatty acids, 60 percent acetic acid, 10 percent citric acid, 5 percent hydrochloric acid and 15 percent water. The fatty acids comprised 60 percent Caproic acid (six carbon atoms) and 40 percent Caprylic acid. One liter of isotonic saline and thirty one-hundred milliliter aliquots of lactose broth were also prepared.

Thirty freshly processed chicken drumettes were collected at a processing plant and separated into three groups of ten. One group was placed directly in lactose broth for Salmonella screening. Each of the ten drumettes in this group was placed in an individual plastic bottle containing one-hundred milliliters of sterile lactose broth. These were incubated 18 to 24 hours as the primary enrichment step for Salmonella screening. This group forms li a natural baseline for the experiment.

A second group was placed in the prepared culture of Salmonella. The culture was at a temperature of 22° Centigrade (°C). These were allowed to soak for thirty minutes and then transferred to one liter of isotonic saline at 22° C. After thirty minutes in the saline solution the drumettes were placed in individual bottles of lactose broth for Salmonella screening as with the first group. This group is the artificially contaminated untreated control for the experiment.

The third group was soaked in the Salmonella culture in the same manner as group two. This group was then soaked in a fatty acid solution for thirty minutes at a temperature of 22° C. The drumettes were removed from the fatty acid solution and placed in individual bottles of lactose broth as with the other groups. All thirty samples were cultured for Salmonella according to the Food and Drug Administration Biological Analytical Manual procedure. The use of caproic acid produced an unacceptably pungent and malodorous carcass. The results are shown in Table 7.

                  TABLE #7                                                         ______________________________________                                                  No. Salmonella                                                        Group    Positive      % Salmonella Positive                                   ______________________________________                                         1        0              0                                                      2        10            100                                                     3        6             60                                                      ______________________________________                                    

EXAMPLE #8

Twenty chicken carcasses were weighed (ten for a control group and ten for a test group). The ten control carcasses were immersed in water at 130° Fahrenheit for five minutes, rinsed for 30 minutes in an ice bath and allowed to drain for 10 minutes. The control carcasses were reweighed And the weights were recorded.

The ten test carcasses were immersed in a bacteriocidal solution at 130° Fahrenheit for five minutes, rinsed for 30 minutes in an ice bath and allowed to drain for 10 minutes. The test carcasses were reweighed and the weights were recorded. The bacteriocidal solution was prepared from a concentrate solution comprising by weight sixty percent acetic acid, five percent hydrochloric acid, five percent propionic acid, ten percent citric acid, ten percent water and ten percent fatty acids. The fatty acids were sixty percent caprylic acid and forty percent capric acid. The concentrate solution was diluted to 675 parts fatty acids per million in water. The results are presented in Table #8.

                  TABLE #8                                                         ______________________________________                                         Weight Before  Weight After                                                                              Difference                                           (grams)        (grams)    (grams)   % Gain                                     ______________________________________                                         Controls                                                                        1     519.1       531.4      12.3    2.4                                       2     566.8       579.0      12.2    2.2                                       3     577.8       587.6       9.8    1.7                                       4     562.4       573.8      11.8    2.1                                       5     623.9       635.2      11.3    1.8                                       6     635.1       642.4       7.3    1.1                                       7     601.7       619.8       7.3    1.2                                       8     667.1       679.2      12.1    1.8                                       9     676.6       689.4      12.8    1.9                                      10     491.9       499.4       7.5    1.5                                      Tests                                                                          11     533.2       570.1      36.9    6.9                                      12     588.7       618.7      30.0    5.1                                      13     576.2       612.6      36.4    6.3                                      14     533.0       573.9      40.9    7.7                                      15     533.3       567.2      33.9    6.4                                      16     581.7       614.7      33.0    5.7                                      17     523.1       552.4      29.3    5.6                                      18     697.4       736.5      39.1    5.6                                      19     642.2       667.2      25.0    4.6                                      20     569.1       601.0      31.9    5.6                                      ______________________________________                                    

It is to be understood that while certain forms of the present invention have been illustrated and described herein, it is not to be limited to the specific forms or arrangement of parts described and shown. 

What is claimed and desired to be secure by Letters Patent is as follows:
 1. A method for treating an animal carcass to eradicate bacteria from the carcass comprising:(a) contacting the carcass with an aqueous solution having an effective amount of a medium chain fatty acid and a sufficient amount of an acid to maintain said solution at an acid pH.
 2. The method as described in claim 1 further comprising:(a) adding a thickening agent to said aqueous solution; and (b) spraying said aqueous solution on said carcass.
 3. The method as described in claim 1 wherein:(a) the carcass is immersed in said aqueous solution.
 4. The method as described in claim 3 wherein:(a) said aqueous solution is agitated.
 5. The method as described in claim 3 wherein:(a) said aqueous solution is aerated.
 6. The method as disclosed in claim 3 wherein:(a) the carcass is held in contact with said aqueous solution from five to thirty minutes.
 7. The method as disclosed in claim 1 wherein:(a) said aqueous solution is heated to fifty to one hundred and fifty degrees Fahrenheit.
 8. The method as disclosed in claim 1 further comprising the step of:(a) immersing the carcass in an aqueous solution containing an effective amount of hypochlorous acid.
 9. A method for treating an animal carcass to eradicate bacteria from the carcass comprising:(a) immersing the carcass in an aqueous sanitizing solution having an effective amount of a medium chain fatty acid, an effective amount of a chelating agent and a sufficient amount of hydrochloric acid to maintain said solution at an acid pH; (b) retaining the carcass in the aqueous sanitizing solution from five to thirty minutes; (c) maintaining the temperature of the aqueous sanitizing solution within a temperature range of fifty to one hundred and fifty degrees Fahrenheit; and (d) removing the carcass from said aqueous sanitizing solution and immersing the carcass in an aqueous chilling solution having an effective amount of hypochlorous acid added thereto.
 10. The method as disclosed in claim 9 further comprising:(a) agitating said aqueous sanitizing solution with the chicken carcass retained therein.
 11. The method as disclosed in claim 9 further comprising:(a) aerating said aqueous sanitizing solution with the chicken carcass retained therein.
 12. A sanitizing solution composition for treating an animal carcass to eradicate bacteria from the carcass; said said composition comprising:(a) a bacteriocidally effective amount of a medium chain fatty acid; (b) water; (c) a sufficient amount of an acid to maintain the composition at an acid pH; (d) acetic acid for solubilizing said medium chain fatty acid in water; and (e) a thickening agent comprising an effective amount of xanthan gum.
 13. A sanitizing solution composition for treating an animal carcass to eradicate bacteria from the carcass; said composition comprising:(a) a bacteriocidally effective amount of a medium chain fatty acid; (b) water; (c) a sufficient amount of an acid to maintain the composition at an acid pH; (d) acetic acid for solubilizing said medium chain fatty acids in water; and (e) a thickening agent comprising an effective amount of alginic acid. 